sapphire optical prism High Transmission and Reflection Transparent AR coating High Transmission coating
The sapphire optical prism’s ability to provide clear, accurate, and high-definition light paths makes it a perfect fit for industries such as telecommunications, laser systems, and advanced sensors. Sapphire prisms are also widely used in the military, aerospace, and medical fields, where precise light manipulation is essential.
The following are the key characteristics of the Sapphire Optical Prism:
High Transmission: The sapphire optical prism is engineered to allow maximum light transmission, ensuring that the light path remains clear and efficient, with minimal loss or distortion.
High Reflection: With exceptional reflective properties, the prism helps in directing light with precision, ideal for applications in beam splitters and optical path management.
Transparent AR Coating: Equipped with transparent anti-reflection (AR) coating, the prism minimizes light scattering and reflections from the surface, improving image clarity and efficiency.
Durability: Made from synthetic sapphire, the prism offers extraordinary resistance to scratches and damage, ensuring long-term reliability in harsh environments.
Optical Clarity: Sapphire optical prisms maintain superior optical clarity, ensuring that light passes through with minimal distortion, perfect for high-precision optical applications.
High Performance at High Temperatures: Sapphire's inherent resistance to high temperatures makes it ideal for use in high-temperature environments without compromising performance.
Key Benefits
|
Specification |
Prism (Sapphire) |
| Type | Prism |
| Transmittance | High Transmission (>95%) |
| Shape | Cylindrical Shaped Prism |
| Material | Sapphire (Al2O3) |
| Lenses Color | Clear |
| Customized | Customized |
| Coating | Anti-Reflective (AR) Coating |
| Diameter | 1mm - 500mm |
| Surface Quality | 40/20; 60/40 (with superior surface finish options) |
| Clear Aperture | >90% of Diameter |
| Surface Flatness | 1/4 Lambda (with high precision optical flatness) |
| Transport Package | Electrolytic Capacitor Paper, Foam, Carton |
| Specification | Customized |
| Trademark | FineWin |
| Origin | China |
| Sapphire Material Properties | - High Durability: Scratch-resistant and robust under harsh conditions |
| Sapphire Optical Characteristics | - High Transmission: Excellent for light paths with minimal loss |
| Sapphire Use Cases | - Precision optics for lasers, microscopes, cameras, aerospace sensors |
| Additional Features | - High Temperature Resistance: Suitable for extreme conditions |
| Coating and Surface Treatment | AR Coating for minimal light reflection and maximum clarity |
| Size Flexibility | Available in a wide range of sizes, customizable |
●High Durability: Sapphire is incredibly durable and resistant to scratches, making it an ideal material for optical components that need to withstand harsh environments.
●Superior Optical Clarity: Sapphire provides excellent light transmission with minimal distortion, making it highly suitable for high-precision optical systems.
●High Temperature Resistance: Sapphire is known for its ability to perform well at elevated temperatures, making it ideal for aerospace, military, and other high-performance applications.
●High Mohs Hardness: With a hardness of 9 on the Mohs scale, sapphire is perfect for optical components that need to maintain clarity and performance over time, even under physical stress.
●Anti-Reflective Coatings: Sapphire prisms often come with AR coatings, reducing reflection and enhancing light transmission, especially in high-precision optics like microscopes, telescopes, and imaging devices.
Applications
Telecommunications: Sapphire optical prisms are used in optical fiber systems and other communication technologies to ensure high-performance light transmission with minimal signal loss.
Laser Systems: These prisms are commonly used in laser beam manipulation and optical systems where precise control over light is required for medical, industrial, and scientific applications.
Imaging Systems: Sapphire prisms are essential in high-definition imaging systems, including microscopes, cameras, and spectrometers, where clarity and accuracy are crucial.
Military & Aerospace: In the defense and aerospace sectors, sapphire optical prisms are used for high-precision optical equipment, such as night vision systems, surveillance, and satellite sensors.
Medical Devices: Sapphire prisms are used in various medical technologies, including diagnostic imaging and optical instruments, where high optical quality and durability are necessary.
Customization Services
XINKEHUI provides customization services for our Sapphire Optical Prisms. We offer a variety of sizes, angles, coatings, and surface finishes to meet the specific needs of our customers. All our prisms are manufactured with cutting-edge technology to ensure superior quality and precision.
Additionally, we offer secure packaging and shipping solutions to protect the prisms during transit. Each prism is carefully inspected, cleaned, and packaged in anti-static packaging to ensure safe delivery and to maintain the highest industry standards.
XINKEHUI focuses on delivering high-quality sapphire optical components that provide excellent optical performance and durability. Whether for research, industrial applications, or high-precision instruments, our products meet the highest standards of quality, reliability, and precision.
Our strength
XINKEHUI has established itself as a trusted and innovative provider of sapphire optical components through its strategic partnerships with globally renowned institutions and corporations such as Corning, SCHOTT, Harvard University, University College London (UCL), and Seoul National University. These collaborations are a testament to XINKEHUI's expertise, cutting-edge technology, and commitment to advancing the field of optics.
Detailed Diagram
